Solder



, Patented Aug. 12, 1941 SOLDER August H. Riesmeyer, Arnold, Pa., assignor to Aluminum Company of America, Pittsburgh, Pa., a corporation of Pennsylvania No Drawing. Application December 29, 1939, Serial No. 311,598

3 Claims.

This invention relates to a soft solder composition, and it is especially concerned with a solder which is adapted for use in the joining of aluminum parts.

The metals tin and zinc have been extensively used in the pastfor making low melting point solders. The relative amounts of these metals in the solders havebeen varied to meet different requirements as to melting point, fluidity, resistance to corrosion, etc. A special problem has arisen in the case of soldering aluminum because of the difliculty of penetrating the metal oxide film which coats the metal, and the electrolytic corrosion which sometimes occurs between the solder metal and the aluminum when the soldered assembly is exposed to a corrosive environment.

' The penetration and removal of this oxide film preparatory to soldering can generally be accomplished most expeditiouslyby applying a flux to the area to be soldered Just prior to bringing the molten solder into contact with the metal surface. The corrosion resistance of the soldered joint in the absence of any flux residue, however, depends upon the composition of the solder. Among soft solders which produce the most corrosion resistant bonds are those which contain more than 80 per cent tin, and are therefore known as high tin solders. However, for some applications an even more corrosion resistant solder is required.

Although high tin solders have been used for soldering aluminum, they do not take hold or bite the aluminum very readily, even when employed with a flux. In other words, the solder does not rapidly unite with the aluminum even though the oxide film has been removed. This deficiency is perhaps caused in part by the almost complete insolubility of tin in solid aluminum. For many soldering operations, especially those performed by machines, it is important to form a soldered joint as rapidly as possible, and it is therefore necessary toemploy both a 'quick acting flux-and a solder which will rapidly unite. with the aluminum or other metal being soldered.

It is an object of my invention to provide a manganese or 0.1 to 0.5 per cent nickel, or both metals within these proportions, to a high tin solder composed of. tin and zinc greatly increases with respect to increasing the speed with which high tin-solder which will rapidly unite with alu- .the molten solder bites or unites with the metal being'soldered. For this reason, these elements are considered to be equivalent to each other, and thus for the purpose of my invention they are regarded as constituting a group of equivalent elements.

I have also discovered that the addition of 0.5 to 4 per cent cadmium to the aforesaid solder considerably improves the corrosion resistance of the soldered joint. Furthermore, the cadmium addition appears to improve the wetting power of the solder, thus enhancing the eifect gained through the use of nickel and/or manganese. In preferred solder compositions, from 0.5 to 3 per cent cadmium is to be employed.

The solder base which is improved by the addition of nickel and/or manganese consists of about 2.5 to 10 per cent zinc, and the balance tin. This solder should be free from copper, except as an unavoidable impurity, because of the formation of high melting point intermetallic compounds which make the solder sluggish. The proportions of zinc which are used in the solder are determined by the character of the metal parts being joined and the melting point desired. Generally, it is preferable to use between 8 and 10 per cent zinc if the lowest melting point combination is desired. However, for other reasons, it may be desirable to employ only from 3 to 5 per cent zinc. Some preferred compositions are 91.3 per cent tin, 8.0 per cent zinc, 0.5

per cent cadmium, 0.2 per cent nickel; or 93.8 per cent tin, 5.0 per cent zinc, 1.0 per cent cadmium, 0.1 per cent nickel, and 0.1 per cent manganese; or 91.3 per cent tin, 8.0 per cent zinc, 0.5 per cent cadmium, and 0.2 per cent manganese.

Although the solder compositions described hereinabove are adapted for soldering common metals, such as copper, iron, and brass, it finds particular application in the Joining of aluminum and aluminum base alloys. The solder has a sufflciently low melting point to be easily applied with the usual soldering tools, and in combination with a suitable flux, a sound soldered joint can be quickly produced. Some satisfactory fluxes for preparing an aluminum surface for soldering are those containing chlorinated naphthalene, diphenyl, or dichlorbenzene described in Letters Patent of the United States 1,996,360,

1,996,361 and 1,996,362, and those containing an amine and a fluorine-containing compound, such as described in copending United States applications, Serial Nos. 306,887 and 306,888.

In referring to the soldering of aluminum, it is to be understood that the term aluminum" is here used to include both the pure metal and aluminum base alloys, since both exhibit the same oxide film-forming characteristics.

I claim:

1. A solder composition consisting of 2.5 to 10 per cent zinc, 0.5 to 4 per cent cadmium, 0.1 to 0.5 per cent nickel, and the balance tin.

2. A solder composition consisting of 8 to 10 Per cent zinc, 0.5 to 4 per cent cadmium, 0.1 to 0.5 per cent nickel, and the balance tin.

3. A solder composition consisting of 3 to 5 per cent zinc, 0.5 to 4 per cent cadmium, 0.1 to 0.5 per cent nickel, and the balance tin.

AUGUST H. RIESMEYER. 

